KEMS4150 Optical Spectroscopy (3–6 cr)
Description
Interaction between electromagnetic radiation and molecules, experimental methods, rotational spectroscopy, vibrational spectroscopy, electronic spectroscopy, photoelectron spectroscopy, laser spectroscopy photochemical and photophysical processes.
Learning outcomes
At the basic level, student understands the basics of the interaction between electromagnetic radiation and matter and additionally the basics of experimental spectroscopic methods. Student understands the principles of vibrational, electronic and photoelectron spectroscopy and can interpret spectra related to these spectroscopies. Student understands basic principles of lasers and laser spectroscopy and photochemical and photophysical processes.
At the advanced level, in addition to the objectives of the basic level, student reaches deeper theoretical understanding of the topics. Additionally, student understands the basic theory of energy transfer, electron transfer, light scattering and femtosecond spectroscopy and the main experimental methods in femtosecond spectroscopy. Additionally, student understands basic theory of spectroscopy of metallic and plasmonic systems, semiconductors, and solid state matter.Working life skills
Problem solving, interaction and presentation skills are evolving.
Additional information
The study module can be taken at two levels: basic level corresponding to 3 credit points and advanced level corresponding to 6 credit points.
Description of prerequisites
Advanced level (6 cr): Symmetry and group theory in chemistry or equivalent, and Quantum Mechanics for Chemists (or Quantum chemistry, also taken simultaneously) or equivalent.
Compulsory prerequisites
- Prerequisite group 1
Recommended prerequisites
Study materials
- J. Michael Hollas, Modern spectroscopy, 4. painos (Wiley, 2004), tai aikaisempi painos. (ISBN: 978-0-470-84416-8)
- Turro, Ramamurthy, Scaiano: Principles of molecular photochemistry, an introduction. University Science Books, 2009. (ISBN: 978-1-891389-57-3)
- Kelley, Anne Myers: Condensed phase molecular spectroscopy and photophysics. Wiley, 2013. (ISBN: 978-0-470-94670-1)
Completion methods
Method 1
Method 2
Teaching (3–6 cr)
Lectures, exercises and 1-2 mid-term exams. Teaching language is English if needed.
Teaching
10/26–12/18/2020 Lectures
12/2–12/2/2020 Midterm, Mid-term exam 1
12/18–12/18/2020 Midterm, Mid-term exam 2
Exam (3–6 cr)
If you want to take exam in English, please contact the teacher.